Please use this identifier to cite or link to this item:
WRRCTR No.126 Groundwater Resources of Kwajalein Island, Marshall Islands
|Title:||WRRCTR No.126 Groundwater Resources of Kwajalein Island, Marshall Islands|
|Authors:||Hunt, Charles D Jr.|
Peterson, Frank L.
show 1 moresustainable yield development
|LC Subject Headings:||Groundwater -- Marshall Islands -- Kwajalein Island.|
Groundwater recharge -- Marshall Islands -- Kwajalein Island.
Water resources development -- Marshall Islands -- Kwajalein Island.
|Issue Date:||Jan 1980|
|Publisher:||Water Resources Research Center, University of Hawaii at Manoa|
|Citation:||Hunt CD Jr, Peterson FL. 1980. Groundwater resources of Kwajalein island, Marshall Islands. Honolulu (HI): Water Resources Research Center, University of Hawaii at Manoa. WRRC technical report, 126.|
|Series/Report no.:||WRRC Technical Report|
|Abstract:||To evaluate the long-term sustainable yield of the Kwajalein groundwater body, and also to investigate methods of optimum development of this resource, a total of 23 observation wells was constructed, from which the thickness, areal extent, and quality of the Kwajalein groundwater lens was monitored. During the past year, freshwater storage in the lens has averaged 1.02 x 10^6 m^3 (270 mil gal) and has fluctuated more than 20% in response to recharge and discharge events. Because of the short period of record presently available and the large seasonal fluctuations, it has not been possible to determine if long-term changes in lens storage are occurring, and this can be determined only after a longer period of data becomes available. Recharge was also evaluated and during the July 1978 to June 1979 period, recharge to the fresh groundwater lens was estimated to be 8.93 x
10^5 m^3 (236 mil gal) which is 52% of the precipitation during this period.
In addition, the areal distribution of recharge was found to be quite uneven with some areas adjacent to paved surfaces receiving recharge at rates as much as four times greater than other areas. A concentrated effort was made to evaluate sustainable yield; however, the length of record presently available is simply too short to provide an accurate measure of sustainable yield for the Kwajalein groundwater body. It appears almost certain, however, that sustainable yield is greater than the present rate of annual
pumpage (1.25 x 10^5 m^3 [33 mil gal] during the 1978-1979 pumping year), and rough estimates indicate that it may exceed 1.89 x 10^5 m^3 /yr (50 mil gal/yr).
To more precisely define the Kwajalein sustainable yield, it is recommended that the lens monitoring program established during this study be continued for at least the next few years.
|Sponsor:||Global Associates Grant/Contract No. 14-34-0001-9013|
|Pages/Duration:||ix + 91 pages|
|Appears in Collections:||WRRC Technical Reports|
Please contact email@example.com if you need this content in an alternative format.
Items in ScholarSpace are protected by copyright, with all rights reserved, unless otherwise indicated.